Abdelraheem E, Thair B, Varela RF, Jockmann E, Popadic D, Hailes HC, Ward JM, Iribarren AM, Lewkowicz ES, Andexer JN, Hagedoorn PL, Hanefeld U. Methyltransferases: Functions and applications. ChemBioChem, 2022, 23: e202200212

Back K, Tan DX, Reiter RJ. Melatonin biosynthesis in plants: Multiple pathways catalyze tryptophan to melatonin in the cytoplasm or chloroplasts. J Pineal Res, 2016, 61: 426-37

Botros HG, Legrand P, Pagan C, Bondet V, Weber P, Ben-Abdallah M, Lemiere N, Huguet G, Bellalou J, Maronde E, Beguin P, Haouz A, Shepard W, Bourgeron T. Crystal structure and functional mapping of human asmt, the last enzyme of the melatonin synthesis pathway. J Pineal Res, 2013, 54: 46-57

Byeon Y, Choi GH, Lee HY, Back K. Melatonin biosynthesis requires n-acetylserotonin methyltransferase activity of caffeic acid o-methyltransferase in rice. J Exp Bot, 2015, 66: 6917-25

Byeon Y, Yool Lee H, Choi DW, Back K. Chloroplast-encoded serotonin n-acetyltransferase in the red alga pyropia yezoensis: Gene transition to the nucleus from chloroplasts. J Exp Bot, 2015, 66: 709-17

Cai Y, Zhou H, Zheng N, Wang Y, Du S, Deng Y, Lu Z, Jin Z, Xia X. Rational engineering design with computer-aided surface charge modulation of highly alkali-stable xylanase for sustainable green degumming applications in the textile industry. Int J Biol Macromol, 2025, 321: 144807

Chen X, Xie W, Yang Y, Hua Y, Xing G, Liang L, Deng C, Wang Y, Fan Y, Liu H, Lu T, Chen Y, Zhang Y. Discovery of dual fgfr4 and egfr inhibitors by machine learning and biological evaluation. J Chem Inf Model, 2020, 60: 4640-52

Chen L, Yu K, Ma A, Zhu W, Wang H, Tang X, Tang Y, Li Y, Li J. Enhanced thermostability of nattokinase by computation-based rational redesign of flexible regions. J Agric Food Chem, 2024, 72: 14241-54

Dempsey DR, Jeffries KA, Bond JD, Carpenter AM, Rodriguez-Ospina S, Breydo L, Caswell KK, Merkler DJ. Mechanistic and structural analysis of drosophila melanogaster arylalkylamine n-acetyltransferases. Biochemistry, 2014, 53: 7777-93

Deng Y, Gao L, Zhang Z, Guan Z, Zheng N, Wei P, Du S, Wang Y, Li Z, Cai Y, Xia X. Analysis of structural, functional properties and interaction mechanism of soy protein gel induced by high-performance microbial transglutaminase. Food Hydrocolloids. 2025;164. https://doi.org/10.1016/j.foodhyd.2025.111170.

Ferreira de Freitas R, Ivanochko D, Schapira M. Methyltransferase inhibitors: Competing with, or exploiting the bound cofactor. Molecules. 2019;24. https://doi.org/10.3390/molecules24244492.

Friesner RA, Murphy RB, Repasky MP, Frye LL, Greenwood JR, Halgren TA, Sanschagrin PC, Mainz DT. Extra precision glide: Docking and scoring incorporating a model of hydrophobic enclosure for protein-ligand complexes. J Med Chem, 2006, 49: 6177-96

Lee YH, Ren D, Jeon B, Liu HW. S-adenosylmethionine: More than just a methyl donor. Nat Prod Rep, 2023, 40: 1521-49

Lindorff-Larsen K, Piana S, Palmo K, Maragakis P, Klepeis JL, Dror RO, Shaw DE. Improved side-chain torsion potentials for the amber ff99sb protein force field. Proteins, 2010, 78: 1950-8

Luo H, Schneider K, Christensen U, Lei Y, Herrgard M, Palsson BO. Microbial synthesis of human-hormone melatonin at gram scales. ACS Synth Biol, 2020, 9: 1240-5

Lyne PD, Lamb ML, Saeh JC. Accurate prediction of the relative potencies of members of a series of kinase inhibitors using molecular docking and mm-gbsa scoring. J Med Chem, 2006, 49: 4805-8

Park H, Bradley P, Greisen PJrLiu Y, Mulligan VK, Kim DE, Baker D, DiMaio F. Simultaneous optimization of biomolecular energy functions on features from small molecules and macromolecules. J Chem Theory Comput, 2016, 12: 6201-12

Rajakumara E, Abhishek S, Nitin K, Saniya D, Bajaj P, Schwaneberg U, Davari MD. Structure and cooperativity in substrate-enzyme interactions: Perspectives on enzyme engineering and inhibitor design. ACS Chem Biol, 2022, 17: 266-80

Shang HQ, Bo Yang Q, Qiang S, Zheng R, Zhang CQ, Hu CY, Chen QH, Meng YH. Engineering caffeic acid o-methyltransferase for efficient de novo ferulic acid synthesis. Eng Life Sci, 2025, 25: e70018

Smith AJ, Muller R, Toscano MD, Kast P, Hellinga HW, Hilvert D, Houk KN. Structural reorganization and preorganization in enzyme active sites: Comparisons of experimental and theoretically ideal active site geometries in the multistep serine esterase reaction cycle. J Am Chem Soc, 2008, 130: 15361-73

Sung SH, Kim B-G, Chong Y, Ahn J-H. Characterization of phenylpropanoid o-methyltransferase from rice: Molecular basis for the different reactivity toward different substrates. J Plant Biology, 2011, 54: 314-20

Ta H, Yang YH, Zhu TT, Du NH, Hao Y, Fu J, Xu DD, Xu ZJ, Cheng AX, Lou HX. Catalytic divergence of o-methyltransferases shapes the chemo-diversity of polymethoxylated bibenzyls in dendrobium catenatum. Plant J, 2024, 120: 29-44

Tan DX, Reiter RJ. An evolutionary view of melatonin synthesis and metabolism related to its biological functions in plants. J Exp Bot, 2020, 71: 4677-89

Wang L, Deng Y, Gao J, Wang B, Han H, Li Z, Zhang W, Wang Y, Fu X, Peng R, Yao Q, Tian Y, Xu J. Biosynthesis of melatonin from l-tryptophan by an engineered microbial cell factory. Biotechnol Biofuels Bioprod. 2024;17. https://doi.org/10.1186/s13068-024-02476-7.

Wang L, Gu J, Zhao W, Wang M, Ng KR, Lyu X, Yang R. Reshaping the binding pocket of cellobiose 2-epimerase for improved substrate affinity and isomerization activity for enabling green synthesis of lactulose. J Agric Food Chem, 2022, 70: 15879-93

Wang SY, Shi XC, Laborda P. Indole-based melatonin analogues: Synthetic approaches and biological activity. Eur J Med Chem, 2020, 185: 111847

Wang W, Su S, Wang S, Ye L, Yu H. Significantly improved catalytic efficiency of caffeic acid o-methyltransferase towards n-acetylserotonin by strengthening its interactions with the unnatural substrate’s terminal structure. Enzyme Microb Technol, 2019, 125: 1-5

Wang E, Sun H, Wang J, Wang Z, Liu H, Zhang JZH, Hou T. End-point binding free energy calculation with mm/pbsa and mm/gbsa: Strategies and applications in drug design. Chem Rev, 2019, 119: 9478-508

Wu X, Ren J, Huang X, Zheng X, Tian Y, Shi L, Dong P, Li Z. Melatonin: Biosynthesis, content, and function in horticultural plants and potential application. Sci Hort. 2021;288. https://doi.org/10.1016/j.scienta.2021.110392.

Xie X, Ding D, Bai D, Zhu Y, Sun W, Sun Y, Zhang D. Melatonin biosynthesis pathways in nature and its production in engineered microorganisms. Synth Syst Biotechnol, 2022, 7: 544-53

Xie M, Du J, Jia M, Nie X, Zhang X, Hu Y, Nian B. Computer-aided techniques in the engineering of enzyme binding pockets: New perspectives and frontiers. J Agric Food Chem, 2025, 73: 20600-15

Xiong X, Song J, Li S, Jin L, He Q, Zhang B, Cao Y, Yi S, Yang Y, Li X, Li J, Huang W. Structure-guided engineering of a promiscuous o-methyltransferase for a sam regeneration biocatalysis platform of methylated pharmaceuticals. Adv Sci (Weinh). 2025;e17794. https://doi.org/10.1002/advs.202517794.

You C, Pan Y, Liu R, Li S, Feng Y. Structural basis for substrate flexibility of the o-methyltransferase mpag’ involved in mycophenolic acid biosynthesis. Protein Sci, 2024, 33: e5144

Yu Y, Wang Z, Wang L, Tian S, Hou T, Sun H. Predicting the mutation effects of protein-ligand interactions via end-point binding free energy calculations: Strategies and analyses. J Cheminform, 2022, 14: 56

Zhang Y, He Y, Zhang N, Gan J, Zhang S, Dong Z. Combining protein and metabolic engineering strategies for biosynthesis of melatonin in escherichia coli. Microb Cell Fact, 2021, 20: 170

Zhang K, Ruan Z, Li J, Bian C, You X, Coon SL, Shi Q. A comparative genomic and transcriptomic survey provides novel insights into n-acetylserotonin methyltransferase (asmt) in fish. Molecules. 2017;22. https://doi.org/10.3390/molecules22101653.

Zheng N, Cai Y, Zhang Z, Zhou H, Deng Y, Du S, Tu M, Fang W, Xia X. Tailoring industrial enzymes for thermostability and activity evolution by the machine learning-based icase strategy. Nat Commun, 2025, 16: 604